CN101076139A

CN101076139A - Method for indicating telecommunication system resources and system, transmitter and receiver

Info

Publication number: CN101076139A
Application number: CNA2006100813318A
Authority: CN
Inventors: 曲秉玉; 李洋
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2006-05-18
Filing date: 2006-05-18
Publication date: 2007-11-21
Anticipated expiration: 2026-05-18
Also published as: CN101076139B

Abstract

In the invention, when less than N/2 resource blocks in N resource blocks needs to be indicated, the method comprises: a) setting an indication sequence composed of N bit binary numbers; b) according to the value of any appointed bit in the indication sequence, getting a resource indication signaling composed of N-1 bit binary sequence to indicate the resource block. The invention also reveals a communication system resource indication system, an apparatus for sending communication system resource indication and an apparatus for receiving the communication system resource indication. By the invention, the resource indication signaling can reduce one bit information comparing the resource indication signaling obtained from bitmap method.

Description

Method for indicating telecommunication system resources, system and dispensing device and receiving system

Technical field

The present invention relates to the communication resource distribution technology, refer to a kind of method for indicating telecommunication system resources, system and dispensing device and reception especially.

Background technology

Insert in (E-UTRA, EvolvedUniversal Terrestrial Radio Access) system at third generation cooperative programme (3GPP) evolution global radio, frequency domain dispatching is a key character.Such as, if system transmission bandwidth is divided into the Resource Block (RB that a plurality of continuous subcarriers are formed, ResourceBlock), so, UE measures the channel quality of each RB and reports the base station by signaling, UE is distributed to according to the dispatching algorithm RB that channel quality is good in the base station, realizes frequency domain dispatching.In order to save the signaling amount that channel quality reports, the channel quality parameter that UE can a top-quality several RB of reporting channel, and command transmitting indicates the channel quality of which RB to be reported, and the signaling of this transmission is resource indication signaling.

In addition, in 3GPP E-UTRA systems technology research report TR25.814, with single carrier frequency division multiplexing (SC-FDMA) as the uplink multi-address transmission technology.In the system based on the SC-FDMA technology, the RB that the running time-frequency resource of distribution is formed with a plurality of continuous sub-carriers usually is as elementary cell.In order to reduce the peak-to-average force ratio of multi-carrier transmission, the resource of distributing to each user is the continuous RB of one or more frequency domains, as shown in Figure 1, Fig. 1 is that telecommunication system resources distributes schematic diagram, two continuous RB1 and RB2 distribute to user terminal 1 (UE_1), five continuous RB3～RB7 distribute to UE_2, and a RB8 distributes to UE_3, and four continuous RB9～RB12 distribute to UE_4.

In system based on the SC-FDMA technology, the base station is by sending the current resource allocation conditions of resource allocation control signaled UE, in the resource allocation control command, comprise the sign (ID) of the UE that is scheduled for, and the resource allocation information that is used to transmit data is a resource indication signaling.All UE can receive and demodulation resource distribution control signaling in the sub-district, to know self current whether being scheduled for, if be dispatched to, know that by resource indication signaling the base station is the resource location that self distributes.

Usually, the coded system of resource allocation control signaling has two kinds: the resource allocation control signaling of each UE is carried out absolute coding; The resource allocation control signaling of a plurality of UE is carried out combined coding.Wherein, combined coding can increase the length of encoding block, improves coding gain.

Under resource allocation control signaling combined coding mode, if it is continuous distributing to the Resource Block of each scheduling UE, then only need ID with the current UE that is scheduled, inform UE with the initial RB of the continuous resource piece that distributes for the UE that respectively is scheduled or the sign of end RB, the UE that is dispatched to just can be defined as the position of the RB of its distribution, promptly indicates as sign initial or the ending resource piece by resource indication signaling.In conjunction with Fig. 1, draw resource indication signaling easily according to the bitmap method and be: 101000011000, indicated the state of each Resource Block by this resource indication signaling.

Above-mentioned channel quality reports with resource allocation and is carrying out resource when indication, and a kind of method relatively more commonly used is bitmap method (bitmap).Suppose to have N RB, each RB sign is respectively RB1, RB2 ... RBN, N are positive integer, and the sequence that resource indication signaling adopts the N bit to form is indicated the sign of the RB that needs indication.For example, if i Resource Block need be instructed to, then the value of the sequence bit of corresponding RBi is set to 1 in the resource indication signaling, and the value of other sequence bit is set to 0.

Concrete indicating means is as shown in table 1, table 1 is bitmap indication signal, suppose that RB1, RB5, RB6 and RB10 are the RB that is instructed to, then the sequence bit of corresponding RB1, RB5, RB6 and RB10 can be set to 1 in the resource indication signaling, the value of other sequence bit then is set to 0 and gets final product, this resource indication signaling is: 100011000100, indicated the state of each Resource Block by this resource indication signaling.

1 0 0 0 1 1 0 0 0 1 0 0

RB1

RB2

RB3

RB4

RB5

RB6

RB7

RB8

RB9

RB10

RB11

RB12

Table 1

Again for example, resource allocation conditions shown in Figure 1 draws resource indication signaling easily according to the bitmap method and is: 101000011000, indicated the sign of each initial Resource Block by this resource indication signaling.

The bitmap method is a kind of resource indicating method more intuitively, carries out the mapping of RB sign to resource indication signaling at transmitting terminal; At receiving terminal, corresponding according to each sequence bit in RB sign in the resource indication signaling and the resource indication signaling separated and maps out RB and identify and get final product.Find out that easily because the figure place of resource indication signaling is identical with the number of RB, the signaling amount expense that causes the bitmap method to need is bigger.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of method for indicating telecommunication system resources, can reduce the signaling amount expense, conserve system resources.

Another object of the present invention is to provide a kind of telecommunication system resources indication mechanism, can reduce the signaling amount expense, conserve system resources.

Another purpose of the present invention is to provide a kind of telecommunication system resources indication dispensing device, can reduce the signaling amount expense, conserve system resources.

A further object of the present invention is to provide a kind of telecommunication system resources indication to receive, and can reduce the signaling amount expense, conserve system resources.

For achieving the above object, technical scheme of the present invention specifically is achieved in that

A kind of method for indicating telecommunication system resources, in N Resource Block, exist less than

Individual Resource Block need be instructed to, and this method may further comprise the steps:

A., the indicator sequence of being made up of the N bit is set;

B. according to the value of any specific bit in this indicator sequence, obtain the resource indication signaling of forming by (N-1) bit, the Resource Block that indication need be instructed to.

Set in advance indicated value and non-indicated value; The method that indicator sequence is set described in the steps A is:

The sign of each Resource Block in N the Resource Block is set, and the Resource Block sign is corresponding one by one with the position in the indicator sequence; The value of the position that the sign of the Resource Block of indicating with needs in the indicator sequence is corresponding is set to indicated value, and the value of all the other is set to non-indicated value.

Described indicated value is 0, and described non-indicated value is 1;

Perhaps described indicated value is 1, and described non-indicated value is 0.

Step B specifically comprises: set in advance decision content and non-decision content;

If the value of specific bit equals described decision content in the described indicator sequence, then the described specific bit in the described indicator sequence is given up the back and obtained resource indication signaling; Otherwise, the indicated value in the indicator sequence is become non-indicated value, non-indicated value becomes indicated value, and obtains resource indication signaling after giving up described specific bit;

Perhaps, if the value of described specific bit equals described decision content, the described specific bit in the described indicator sequence is given up the back obtain resource indication signaling; Otherwise, the described specific bit in the described indicator sequence to be given up, and will be given up that indicated value becomes non-indicated value in the indicator sequence after the specific bit, non-indicated value becomes indicated value, obtains resource indication signaling.

When receiving terminal receives described resource indication signaling, this method also comprises:

If in the described resource indication signaling number of indicated value less than

Then in the last position of specific bit and described specific bit described in the described resource indication signaling, insert described decision content, obtain and the corresponding indicator sequence of Resource Block sign that is instructed to;

If the number of indicated value is not less than in the described resource indication signaling Then the indicated value in the described resource indication signaling is become non-indicated value, non-indicated value becomes indicated value, insert described non-decision content in the last position of specific bit and described specific bit described in the resource indication signaling after change again, obtain and the corresponding indicator sequence of Resource Block sign that is instructed to.

Described decision content is 0, and described non-decision content is 1;

Perhaps described decision content is 1, and described non-decision content is 0.

It is that receiving terminal is known that one or more Resource Block signs of choosing are arranged in the Resource Block of needs indication, the Resource Block of then described indicator sequence indication except that described known resource piece.

In described indicator sequence, the Resource Block number that needs indication is less than half of system resource number of blocks and described known resource piece number sum.

A kind of telecommunication system resources indication dispensing device, this device comprises:

Indicator sequence is provided with module, and receiving needs the Resource Block information that is instructed in N the Resource Block from the outside, according to this information, and the indicator sequence that setting is made up of the N bit;

The resource indication signaling generation module receives the indicator sequence that module is set from indicator sequence, according to the value of specific bit in the indicator sequence, and gives up described specific bit, obtains resource indication signaling and the output be made up of (N-1) position binary sequence.

A kind of telecommunication system resources indication receiving system, this device comprises:

The resource indication signaling parsing module receives the resource indication signaling that the resource indication signaling generation module from the opposite end generates, and determines that according to this resource indication signaling the value of the specific bit given up in the indicator sequence obtains indicator sequence;

Indexed resource piece determination module receives the indicator sequence from the resource indication signaling parsing module, parses the Resource Block sign that is instructed to.

A kind of telecommunication system resources indication mechanism, this system comprise telecommunication system resources indication dispensing device and telecommunication system resources indication receiving system, wherein,

Described telecommunication system resources indication dispensing device comprises:

The resource indication signaling generation module receives the indicator sequence that module is set from indicator sequence, according to the value of specific bit in the indicator sequence, and gives up described specific bit, obtains resource indication signaling and the output be made up of (N-1) position binary sequence;

Described telecommunication system resources indication receiving system comprises:

As seen from the above technical solution, when existence need be instructed to less than N/2 Resource Block in N the Resource Block, resource indicating device of the present invention is N the indicator sequence that the Resource Block setting is made up of the N bit, and according to the value of any specific bit in this indicator sequence, indicator sequence is changed, and after giving up described specific bit, obtain the resource indication signaling of forming by (N-1) position binary sequence.By the present invention program, the resource indication signaling that makes resource indication signaling obtain than employing bitmap method has reduced the signaling amount of 1 bit, has saved system resource.Simultaneously, the inventive method has realized the fast mapping of Resource Block sign with resource indication signaling.

Description of drawings

Fig. 1 is that telecommunication system resources distributes schematic diagram;

Fig. 2 is the schematic diagram of resource indicating device of the present invention;

Fig. 3 is the flow chart of resource indicating method of the present invention.

Embodiment

Core concept of the present invention is: when existence need be instructed to less than N/2 Resource Block in N the Resource Block, the indicator sequence that setting is made up of the N bit, according to the value of any specific bit in this indicator sequence, obtain the resource indication signaling of forming by (N-1) position binary sequence.

For making purpose of the present invention, technical scheme and advantage clearer, below with reference to the accompanying drawing preferred embodiment that develops simultaneously, the present invention is described in more detail.

Fig. 2 is the schematic diagram of telecommunication system resources indication mechanism of the present invention, and as shown in Figure 2, this system comprises telecommunication system resources indication dispensing device and telecommunication system resources indication receiving system two parts:

Wherein, telecommunication system resources indication dispensing device comprises:

Indicator sequence is provided with module, need in N the Resource Block of reception from the outside Resource Block information that is instructed to promptly wherein which Resource Block need be instructed to, according to this Resource Block state information, the indicator sequence of being made up of the N bit is set, and exports to the resource indication signaling generation module.

The resource indication signaling generation module, reception is provided with the indicator sequence of module from indicator sequence, according to the value of a certain specific bit in advance in the indicator sequence, and give up described specific bit in advance, obtain resource indication signaling and the output formed by (N-1) position binary sequence.

Telecommunication system resources indication receiving system comprises:

The resource indication signaling parsing module, be used to receive resource indication signaling from the resource indication signaling generation module generation of opposite end, the value of determining the specific bit given up in the indicator sequence according to this resource indication signaling obtains indicator sequence, and sends to Resource Block sign determination module.

Need to prove that described telecommunication system resources indication dispensing device and telecommunication system resources indication receiving system can be independent entity.

Fig. 3 is the flow chart of resource indicating method of the present invention, and this method may further comprise the steps:

Exist in step 300:N the Resource Block need be instructed to, the indicator sequence of being made up of the N bit is set less than N/2 Resource Block.

Suppose that transmission bandwidth is divided into N Resource Block, need the sign of indication k Resource Block wherein, and

1 \leq k < \frac{N}{2} .

At transmitting terminal, the sign of each Resource Block in N the Resource Block is set, the sign of Resource Block is corresponding one by one with the position in the indicator sequence, with N position binary system indicator sequence { b _p} _P=1 ^NRepresent whether k Resource Block is instructed to b _p∈ 0,1}, b _NBe highest order, preestablish b _pA certain value in the span is an indicated value as 0 or 1, and another value is non-indicated value as 1 or 0.In the indicator sequence of N position, be set to indicated value with the corresponding position of sign of the Resource Block of needs indications, other position all is set to non-indicated value.If in N the Resource Block, p ₁, p ₂..., p _kThe Resource Block of individual Resource Block for needing to indicate, wherein, 1≤p _k＜p _K-1＜p ₁≤ N, then indicator sequence { b _p} _P=1 ^NIn p ₁, p ₂..., p _kThe value of position is an indicated value.This shows the Resource Block sign and the indicator sequence { b that will indicate _p} _P=1 ^NBe one to one.

Step 301:, obtain the resource indication signaling of forming by (N-1) position binary sequence, with the indexed resource piece according to the value of any specific bit in the indicator sequence.

Specify indicator sequence { b in advance _p} _P=1 ^NIn a certain position b _i, according to b _iValue, formation sequence { c _p} _P=1 ^N: definition b _iA certain value in the span is default decision content as 1 or 0, works as b _iWhen equaling to preset decision content, sequence { c _p} _P=1 ^NEqual sequence { b _p} _P=1 ^NWork as b _iEqual in the span default non-decision content as 0 or at 1 o'clock, sequence { c _p} _P=1 ^NEqual sequence { b _p} _P=1 ^NMiddle indicated value becomes non-indicated value, and non-indicated value becomes the sequence that generates after the indicated value.Can be described below with formula (1) and (1 '):

When default value is 0,

c_{p} = \{\begin{matrix} b_{p}, b_{i} = 0 \\ (1 - b_{p}), b_{i} = 1 \end{matrix} - - - (1)

When default value is 1,

c_{p} = \{\begin{matrix} b_{p}, b_{i} = 1 \\ (1 - b_{p}), b_{i} = 0 \end{matrix} - - - (1')

Remove sequence { c _p} _P=1 ^NIn c _iThe position is a specific bit, generates resource indicator sequence { d _p} _P=1 ^N-1, can be described below with formula (2):

d_{p} = \{\begin{matrix} c_{p}, 1 \leq p < i \\ c_{p + 1}, i \leq p \leq N - 1 \end{matrix} - - - (2)

Because

k < \frac{N}{2},

Therefore, sequence { b _p} _P=1 ^NIn indicated value number must less than

But not the number of indicated value necessarily more than or equal to

Sequence { the c that is generating _p} _P=1 ^NIn, work as b _iWhen equaling default value, the number of indication less than

Work as b _iWhen being not equal to default value, the number of indicated value then more than or equal to

Can learn according to this relation:

(1) different resource block identification indicator sequence { b _p} _P=1 ^NCorresponding sequence { the c that generates _p} _P=1 ^NDifference, i.e. sequence { c _p} _P=1 ^NIdentifying with Resource Block is one to one.

(2) sequence { c _p} _P=1 ^NIn, the number of indicated value and b _iValue be correlated with, therefore, remove sequence { c _p} _P=1 ^NIn corresponding position c _i, the sequence { d of generation _p} _P=1 ^N-1With resource identification is corresponding one by one.Therefore, the Resource Block sign can be mapped as the sequence { d of N-1 position _p} _P=1 ^N-1, and with sequence { d _p} _P=1 ^N-1As resource indication signaling.

The inventive method further comprises:

At receiving terminal, receive resource indication signaling { d _p} _P=1 ^N-1After, at first judge { d _p} _P=1 ^N-1In the number of indicated value, if the number of indicated value less than

Then at sequence { d _p} _P=1 ^N-1In insert default value between i-1 and the i position, obtain sequence { b _p} _P=1 ^NIf the number of indicated value is not less than Then earlier with sequence { d _p} _P=1 ^N-1In indicated value change to non-indicated value, non-indicated value changes to indicated value, the sequence { d after will changing again _p} _P=1 ^N-1In insert another value beyond the default value in the span between i-1 and the i position, obtain sequence { b _p} _P=1 ^NAgain according to sequence { b _p} _P=1 ^NThe position of middle indicated value determines that the Resource Block that indicates identifies.

As seen, when utilizing this method to carry out the resource indication, do not need to carry out any complex mathematical computing, thereby realized of the fast mapping reconciliation mapping of Resource Block sign with resource indication signaling.

Especially, some or a plurality of Resource Block signs of choosing are that receiving terminal is known in the Resource Block of system divides, then utilize the Resource Block of above-mentioned resource indicating method indication except that these Resource Block to get final product.For example, when carrying out the resource allocation indication, if indication is that initial Resource Block sign and the resource allocation of distributing to the resource of UE always begins with first Resource Block, perhaps indication is that the ending resource block identification of resource and the resource allocation of distributing to UE always finishes with last Resource Block, and then resource indication signaling only need indicate in N-1 the Resource Block the individual initial or ending resource block identification of k-1 and gets final product.At this moment, still adopt the described resource indicating method of Fig. 2, only need with N-1 bit { b _p} _P=1 ^N-1Represent resource allocation conditions, the value of having only the k-1 position in the N-1 position is an indicated value, and other all is non-indicated value, adopts said method equally, generates N-2 bit sequence { d at last _p} _P=1 ^N-2As resource indication signaling.And at this moment, the number k of the Resource Block that need indicate should satisfy

(k - 1) < \frac{(N - 1)}{2},

Promptly

k < \frac{(N + 1)}{2} .

With in the system based on the SC-FDMA technology, the base station is an example by sending the current resource allocation conditions of resource allocation control signaled UE, specifically describes the implementation procedure of the inventive method below:

Suppose that the transmission bandwidth of system is 5MHz, evenly be divided into N=12 Resource Block, distribute to k=4 scheduling UE, be assumed to be UE_1, UE_2, UE_3 and UE_4; And the Resource Block of distributing to each UE is that frequency domain is continuous, and resource allocation conditions is as shown in table 3, and table 3 shows the initial Resource Block sign of the resource of utilizing the resource indication signaling indication to distribute to each UE.

RB1

RB2

RB3

RB4

RB5

RB6

RB7

RB8

RB9

RB10

RB11

RB12

{b _p} _p＝1 ^N1 0 1 0 0 0 0 1 1 0 0 0

Table 3

Here, preestablishing indicated value is 1, and non-indicated value is 0.

As shown in table 3, initial Resource Block sign is expressed as with 12 bit indicator sequences:

{b_{p}}_{p = 1}^{12} = {101000011000}

Continuous RB1～RB2 distributes to UE_3, and continuous RB3～RB7 distributes to UE_2, and RB8 distributes to UE_1, and continuous RB9～RB12 distributes to UE_4.

Suppose that most significant bits is in rightmost, wherein, 1 pair of sign in requisition for the RB of indication of indicated value is respectively RB1, RB3, RB8 and RB9.

Suppose to preestablish according to indicator sequence { b _p} _P=1 ¹²In the 1st value generate resource indication signaling, and the default value of definition is 0, has

c_{p} = \{\begin{matrix} b_{p}, b_{i} = 0 \\ (1 - b_{p}), b_{i} = 1 \end{matrix}

Then, because b ₁=1, sequence then

{c_{p}}_{p = 1}^{12} = {0140111100111},

At this moment, most significant bits is in rightmost.With c ₁Remove, obtain sequence

{d_{p}}_{p = 1}^{11} = {10111100111},

And should { d _p} _P=1 ¹¹As the resource allocation indication signaling.

At receiving terminal, after UE receives the resource allocation indication signaling, determine the resource allocation conditions of signaling indication by separating mapping, the specific implementation process is:

Determine { d _p} _P=1 ¹¹The number of middle indicated value 1 is 8, greater than

\frac{N}{2} = 6

Therefore, can determine c _p=1-b _p, and b ₁=1, thus sequence obtained

{b_{p}}_{p = 1}^{12} = {101000011000} .

This sequence { b _p} _P=1 ¹²In the Resource Block corresponding with indicated value 1 be initial Resource Block.

Compare with the bitmap scheme, this programme makes resource allocation indication signaling expense save 1 bit, has reduced the signaling amount expense, has saved system resource.Simultaneously, realized of the fast mapping reconciliation mapping of Resource Block sign at receiving terminal with resource indication signaling.

The above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention, all any modifications of being made within the spirit and principles in the present invention, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. a method for indicating telecommunication system resources is characterized in that, in N Resource Block, exist less than

A., the indicator sequence of being made up of the N bit is set;

2. method according to claim 1 is characterized in that, sets in advance indicated value and non-indicated value; The method that indicator sequence is set described in the steps A is:

3. method according to claim 2 is characterized in that:

Described indicated value is 0, and described non-indicated value is 1;

Perhaps described indicated value is 1, and described non-indicated value is 0.

4. method according to claim 1 is characterized in that step B specifically comprises: set in advance decision content and non-decision content;

5. method according to claim 4 is characterized in that, when receiving terminal receives described resource indication signaling, this method also comprises:

If in the described resource indication signaling number of indicated value less than Then in the last position of specific bit and described specific bit described in the described resource indication signaling, insert described decision content, obtain and the corresponding indicator sequence of Resource Block sign that is instructed to;

If the number of indicated value is not less than in the described resource indication signaling

Then the indicated value in the described resource indication signaling is become non-indicated value, non-indicated value becomes indicated value, insert described non-decision content in the last position of specific bit and described specific bit described in the resource indication signaling after change again, obtain and the corresponding indicator sequence of Resource Block sign that is instructed to.

6. according to claim 4 or 5 described methods, it is characterized in that:

Described decision content is 0, and described non-decision content is 1;

7. method according to claim 1 is characterized in that, it is that receiving terminal is known that one or more Resource Block signs of choosing are arranged in the Resource Block of needs indication, the Resource Block of then described indicator sequence indication except that described known resource piece.

8. method according to claim 7 is characterized in that, in described indicator sequence, the Resource Block number that needs indication is less than half of system resource number of blocks and described known resource piece number sum.

9. a telecommunication system resources is indicated dispensing device, it is characterized in that this device comprises:

10. a telecommunication system resources is indicated receiving system, it is characterized in that this device comprises:

11. a telecommunication system resources indication mechanism is characterized in that, this system comprises telecommunication system resources indication dispensing device and telecommunication system resources indication receiving system, wherein,